Get time-to-failure life predictions at the component, board and system levels in early design stages with Ansys Sherlock
Ansys Sherlock automated design analysis software is the only reliability physics-based engineering simulation software that provides fast and accurate life predictions for electronic hardware at the component, board and system levels in early design stages. Features include:
Sherlock is a reliability engineering software solution that builds on the information produced by CAE tools to provide the time-to-failure predictions needed to make design cost decisions. It reduces time-to-market by eliminating physical prototyping and testing.
With electronic components being used in harsher and more remote environments than they ever have before, predicting their operating lifetimes to prepare for maintenance or calculate warranty costs is critical. Ansys Sherlock is the only physics-based reliability design software that provides fast and accurate product longevity predictabilition for electronic hardware (components, boards and systems) to mitigate thermal, mechanical and manufacturing risks.
Try Sherlock today to learn how mechanical, electrical and reliability engineers can seamlessly import complex 3D objects into one tool and gain valuable insight into how mechanical structures — including enclosures, batteries, thermal solutions, chassis, displays and stiffeners — affect the robustness of electronics exposed to thermal and mechanical loads.
Learn how Ansys Sherlock reliability analysis helps predict deficiencies early evaluate what-if scenarios and determine lifecycle reliability in your automotive electronic PCB systems.
This webinar provides a new, fully automated approach to analyze complex PCB designs and identify the configurations that are susceptible to failure.
This presentation discusses the critical parameters of these packages that may affect the thermal cycling performance.